基于产量-环境-经济多目标协同的覆膜旱作稻田氮肥优化策略OA
Optimizing nitrogen fertilizer application in ground cover rice production system using multi-objective synergies among yield,environment,and economy
为解决水稻覆膜旱作模式化肥一次性基施导致的前期生长过旺而后期缺氮问题,该研究于 2021-2022年在川中丘陵区开展了 2种水分处理(W1,传统淹水;W2,覆膜旱作)和 3种氮肥处理(N1,0;N2,135 kg/hm2 尿素一次性基施;N3,传统淹水,施用 135 kg/hm2 尿素,基追比 3:2;覆膜旱作,尿素和鸡粪各 67.5 kg/hm2 一次性基施)的田间试验,以经济效益最大化为目标,并以产量最佳和环境影响最低为约束条件,结合 WHCNS(soil water heat carbon nitrogen simulator)模型在不同施氮总量和有机肥替代率情景的模拟结果,构建了基于产量-环境-经济多目标协同的覆膜旱作稻田氮肥管理模型,确定了有机无机最佳配施比例及数量.结果表明:构建的氮肥管理模型模拟值与实测值的决定系数均高于 0.95(P<0.001),说明模型拟合效果很好.以 2022年为例,与原有机肥替代率 50%(总施氮量 135 kg/hm2)方案相比,有机肥替代率 64%(总施氮量 157.9 kg/hm2)优化方案的氮素损失量保持不变,产量和净收益分别提高了41 kg/hm2 和45 元/hm2.该研究可为覆膜旱作水稻实现高产高效绿色生产提供科学施氮依据与技术支撑.
Ground cover rice production system(GCRPS)can be expected for the water-conservation and temperature-raising impacts,in order to prevent the seasonal drought and early low-temperature stress during rice cultivation in the hilly and mountainous areas.Plastic film or mulching materials can be used to effectively reduce the soil water evaporation for the soil moisture and root-zone temperature.Prevalent fertilizer practices under GCRPS—often relying on a one-time,basal application of chemical nitrogen—frequently result in the crop growth patterns.Specifically,the excessive growth can be caused in the initial stages,while the nitrogen(N)deficiency is found at a later stage.This study aims to systematically investigate and then optimize N strategies for GCRPS.A field experiment was conducted from 2021 to 2022 in the hilly area of Ziyang City,the central Sichuan Province,China.Two water treatments(W1,conventional flooding paddy;W2,GCRPS)and three N treatments(N1,zero-N fertilizer;N2,135 kg/hm2 as a urea-based fertilizer;and N3,135 kg/hm2 of urea with a 3:2 base-topdressing ratio for the W1 or a 67.5 kg/hm2 each of urea and manure as basic fertilizer for W2)were designed.A holistic,multi-objective optimization framework was adopted to maximize the economic benefits.The constraints of yield and environment were combined with the various scenario simulations of N application and organic fertilizer substitution rate from the WHCNS(Soil Water Heat Carbon Nitrogen Simulator)model.An N fertilizer model for GCRPS was constructed using the multi-objective synergies of yield,environmental,and economic goals.The optimal ratio and quantity of combined organic-inorganic fertilizer application were determined for the GCRPS.The results showed that the coefficients of determination between simulated and measured values were all above 0.95 and significant at the 0.001 level for the N fertilizer model.The crop yield and N losses were excellently simulated to verify the robust model under GCRPS,providing a reliable tool for scenario optimization.Taking 2022 as an example,the N loss of the 64%organic fertilizer substitution strategy(with a total N application rate of 157.9 kg/hm2)remained the same,compared with the original strategy of 50%organic fertilizer substitution(with a total N application rate of 135 kg/hm2).Notably,the yield and net profit increased by 41 kg/hm2 and 45 CNY/hm2,respectively.The production and efficiency were obtained to reduce pollution in sustainable agriculture.In conclusion,the optimal approach was recommended to integrate organic-inorganic fertilization in GCRPS.The N fertilizer optimization was identified to maximize the net economic benefits for the high and stable yields,particularly with the environment to prevent additional nitrogen pollution.Therefore,a robust technical reference was provided for the precise,efficient,and environmentally sound application of nitrogen fertilizers in the ground cover rice production system.A great contribution was made to advance green and sustainable rice cultivation in vulnerable mountainous regions.
任健;陈少卿;胡诚;张智;刘东海;刘海涛;吕世华;胡克林
中国农业大学土地科学与技术学院,农业农村部华北耕地保育重点实验室,北京 100193||湖北省农业科学院植保土肥研究所,农业农村部废弃物肥料化利用重点实验室,武汉 430064中国农业大学土地科学与技术学院,农业农村部华北耕地保育重点实验室,北京 100193湖北省农业科学院植保土肥研究所,农业农村部废弃物肥料化利用重点实验室,武汉 430064湖北省农业科学院植保土肥研究所,农业农村部废弃物肥料化利用重点实验室,武汉 430064湖北省农业科学院植保土肥研究所,农业农村部废弃物肥料化利用重点实验室,武汉 430064四川省农业科学院农业资源与环境研究所,成都 610066四川省农业科学院农业资源与环境研究所,成都 610066中国农业大学土地科学与技术学院,农业农村部华北耕地保育重点实验室,北京 100193
农业科技
产量水稻覆膜旱作丘陵山区氮肥多目标协同模型
yieldriceground cover production systemhilly and mountainous areasnitrogen fertilizermulti-objective synergiesmodel
《农业工程学报》 2026 (6)
87-95,9
国家自然科学基金资助项目(41977008)中国农业大学2115人才培育发展支持计划项目(1191-00109011)
评论